Over the past several months, the state of California conducted the most comprehensive security review yet of electronic voting machines. People I consider to be security experts analyzed machines from three different manufacturers, performing both a red-team attack analysis and a detailed source code review. Serious flaws were discovered in all machines and, as a result, the machines were all decertified for use in California elections.

The reports are worth reading, as is much of the commentary on the topic. The reviewers were given an unrealistic timetable and had trouble getting needed documentation. The fact that major security vulnerabilities were found in all machines is a testament to how poorly they were designed, not to the thoroughness of the analysis. Yet California Secretary of State Debra Bowen has conditionally recertified the machines for use, as long as the makers fix the discovered vulnerabilities and adhere to a lengthy list of security requirements designed to limit future security breaches and failures.

While this is a good effort, it has security completely backward. It begins with a presumption of security: If there are no known vulnerabilities, the system must be secure. If there is a vulnerability, then once it's fixed, the system is again secure. How anyone comes to this presumption is a mystery to me. Is there any version of any operating system anywhere where the last security bug was found and fixed? Is there a major piece of software anywhere that has been, and continues to be, vulnerability-free?

Yet again and again we react with surprise when a system has a vulnerability. Last weekend at the hacker convention DefCon, I saw new attacks against supervisory control and data acquisition (SCADA) systems -- those are embedded control systems found in infrastructure systems like fuel pipelines and power transmission facilities -- electronic badge-entry systems, MySpace, and the high-security locks used in places like the White House. I will guarantee you that the manufacturers of these systems all claimed they were secure, and that their customers believed them.

Earlier this month, the government disclosed that the computer system of the US-Visit border control system is full of security holes. Weaknesses existed in all control areas and computing device types reviewed, the report said. How exactly is this different from any large government database? I'm not surprised that the system is so insecure; I'm surprised that anyone is surprised. --> Read the rest at source.